# flake8: noqa: F403,F405 from common import * # isort:skip from mock_storage import mock_storage from storage import cache, cache_common from trezor import wire from trezor.crypto import bip39 from trezor.enums import SafetyCheckLevel from trezor.wire import context from apps.common import safety_checks from apps.common.keychain import Keychain, LRUCache, get_keychain, with_slip44_keychain from apps.common.paths import PATTERN_SEP5, PathSchema from trezor.wire.codec.codec_context import CodecContext from storage import cache_codec class TestKeychain(unittest.TestCase): def setUpClass(self): context.CURRENT_CONTEXT = CodecContext(None, bytearray(64)) def tearDownClass(self): context.CURRENT_CONTEXT = None def setUp(self): cache_codec.start_session() def tearDown(self): cache.clear_all() @mock_storage def test_verify_path(self): schemas = ( PathSchema.parse("m/44'/coin_type'", slip44_id=134), PathSchema.parse("m/44'/coin_type'", slip44_id=11), ) keychain = Keychain(b"", "secp256k1", schemas) correct = ( [H_(44), H_(134)], [H_(44), H_(11)], ) for path in correct: keychain.verify_path(path) fails = ( [H_(44), 134], # path does not match [44, 134], # path does not match (non-hardened items) [H_(44), H_(13)], # invalid second item ) for f in fails: with self.assertRaises(wire.DataError): keychain.verify_path(f) # turn off restrictions safety_checks.apply_setting(SafetyCheckLevel.PromptTemporarily) for path in correct + fails: keychain.verify_path(path) def test_verify_path_special_ed25519(self): schema = PathSchema.parse("m/44'/coin_type'/*", slip44_id=134) k = Keychain(b"", "ed25519-keccak", [schema]) # OK case k.verify_path([H_(44), H_(134)]) # failing case: non-hardened component with ed25519-like derivation with self.assertRaises(wire.DataError): k.verify_path([H_(44), H_(134), 1]) def test_no_schemas(self): k = Keychain(b"", "secp256k1", []) paths = ( [], [1, 2, 3, 4], [H_(44), H_(11)], [H_(44), H_(11), 12], ) for path in paths: self.assertRaises(wire.DataError, k.verify_path, path) def test_get_keychain(self): seed = bip39.seed(" ".join(["all"] * 12), "") context.cache_set(cache_common.APP_COMMON_SEED, seed) schema = PathSchema.parse("m/44'/1'", 0) keychain = await_result(get_keychain("secp256k1", [schema])) # valid path: self.assertIsNotNone(keychain.derive([H_(44), H_(1)])) # invalid path: with self.assertRaises(wire.DataError): keychain.derive([44]) def test_with_slip44(self): seed = bip39.seed(" ".join(["all"] * 12), "") context.cache_set(cache_common.APP_COMMON_SEED, seed) slip44_id = 42 valid_path = [H_(44), H_(slip44_id), H_(0)] invalid_path = [H_(44), H_(99), H_(0)] testnet_path = [H_(44), H_(1), H_(0)] def check_valid_paths(keychain, *paths): for path in paths: self.assertIsNotNone(keychain.derive(path)) def check_invalid_paths(keychain, *paths): for path in paths: self.assertRaises(wire.DataError, keychain.derive, path) @with_slip44_keychain(PATTERN_SEP5, slip44_id=slip44_id) async def func_id_only(msg, keychain): check_valid_paths(keychain, valid_path, testnet_path) check_invalid_paths(keychain, invalid_path) @with_slip44_keychain(PATTERN_SEP5, slip44_id=slip44_id, allow_testnet=False) async def func_disallow_testnet(msg, keychain): check_valid_paths(keychain, valid_path) check_invalid_paths(keychain, testnet_path, invalid_path) @with_slip44_keychain(PATTERN_SEP5, slip44_id=slip44_id, curve="ed25519") async def func_with_curve(msg, keychain): self.assertEqual(keychain.curve, "ed25519") check_valid_paths(keychain, valid_path, testnet_path) check_invalid_paths(keychain, invalid_path) await_result(func_id_only(None)) await_result(func_disallow_testnet(None)) await_result(func_with_curve(None)) def test_lru_cache(self): class Deletable: def __init__(self): self.deleted = False def __del__(self): self.deleted = True cache = LRUCache(10) obj_a = Deletable() self.assertIsNone(cache.get("a")) cache.insert("a", obj_a) self.assertIs(cache.get("a"), obj_a) # test eviction objects = [(i, Deletable()) for i in range(10)] for key, obj in objects: cache.insert(key, obj) # object A should have been evicted self.assertIsNone(cache.get("a")) self.assertTrue(obj_a.deleted) cache.insert("a", obj_a) for key, obj in objects[:-1]: # objects should have been evicted in insertion order self.assertIsNone(cache.get(key)) self.assertTrue(obj.deleted) cache.insert(key, obj) # use "a" object self.assertIs(cache.get("a"), obj_a) # insert last object key, obj = objects[-1] cache.insert(key, obj) # "a" is recently used so should not be evicted now self.assertIs(cache.get("a"), obj_a) if __name__ == "__main__": unittest.main()